NMS: This project is a fork of the original. I've added the ability to print out cells using multiple lines, and some other formatting ideas. Changes are not fully tested and this fork is not up to standards to submit a pull request. This version of the crate is not hosted in any repository.
This library arranges textual data in a grid format suitable for fixed-width fonts, using an algorithm to minimise the amount of space needed.
This library arranges textual data in a grid format suitable for fixed-width fonts, using an algorithm to minimise the amount of space needed. For example:
use term_grid::{Grid, GridOptions, Direction, Filling, Cell};
let mut grid = Grid::new(GridOptions {
filling: Filling::Spaces(1),
direction: Direction::LeftToRight,
});
for s in &["one", "two", "three", "four", "five", "six", "seven",
"eight", "nine", "ten", "eleven", "twelve"]
{
grid.add(Cell::from(*s));
}
println!("{}", grid.fit_into_width(24).unwrap());
Produces the following tabular result:
one two three four
five six seven eight
nine ten eleven twelve
To add data to a grid, first create a new Grid
value, and then add cells to them with the add
method.
There are two options that must be specified in the GridOptions
value that dictate how the grid is formatted:
filling
: what to put in between two columns - either a number of spaces, or a text string;direction
, which specifies whether the cells should go along rows, or columns:Direction::LeftToRight
starts them in the top left and moves rightwards, going to the start of a new row after reaching the final column;Direction::TopToBottom
starts them in the top left and moves downwards, going to the top of a new column after reaching the final row.
When display a grid, you can either specify the number of columns in advance, or try to find the maximum number of columns that can fit in an area of a given width.
Splitting a series of cells into columns - or, in other words, starting a new row every n cells - is achieved with the fit_into_columns
method on a Grid
value.
It takes as its argument the number of columns.
Trying to fit as much data onto one screen as possible is the main use case for specifying a maximum width instead.
This is achieved with the fit_into_width
method.
It takes the maximum allowed width, including separators, as its argument.
However, it returns an optional Display
value, depending on whether any of the cells actually had a width greater than the maximum width!
If this is the case, your best bet is to just output the cells with one per line.
Grids do not take String
s or &str
s - they take Cells
.
A Cell is a struct containing an individual cell’s contents, as a string, and its pre-computed length, which gets used when calculating a grid’s final dimensions.
Usually, you want the Unicode width of the string to be used for this, so you can turn a String
into a Cell
with the .into()
method.
However, you may also want to supply your own width: when you already know the width in advance, or when you want to change the measurement, such as skipping over terminal control characters.
For cases like these, the fields on the Cell
values are public, meaning you can construct your own instances as necessary.